Design and synthesis of mucoadhesive nanogel containing farnesol: investigation of the effect on HWP1, SAP6 and Rim101 genes expression of Candida albicans in vitro.

The evolution of drug resistance of Candida species to conventional antifungal agents has been a major medical challenge worldwide; attempt to use the potential antifungal agents with appropriate therapy efficacy and minimum effects is considerably growing. This study was conducted to evaluate the use of nanogel as a nanocarrier for pharmaceutical application of farnesol. The nanogels were synthetized using alginate (AL) and chitosan (CS) polymers containing 300 µM of farnesol in the nano-range 42-70 nm size. In vitro release studies indicated that release of farnesol from CS and AL nanogels was as 58% and 37%, respectively. Chitosan nanogel showed more in inhibitory zone as compared to AL nanogel (9 mm). Also, cytotoxicity assay showed no significant difference between control and treatment groups (p>.05). Finally, the effect of nanogels on genes expression of HWP1, SAP6 and Rim101 in Candida albicans ATCC10231 was assessed using real-time polymerase chain reaction (PCR). Expression of HWP1 and SAP6 genes in C. albicans treated with CS nanogel was significantly decreased (p<.01). In general, the obtained finding showed that, CS nanogel contains farnesol with proper antifungal activity and as a new approach used in pharmaceutical applications against C. albicans; however, more studies in vitro and in vivo are needed in the future.